psubclinN

Description: The intersection of two closed subspaces is closed. (Contributed by NM, 25-Mar-2012) (New usage is discouraged.)

		Ref	Expression
	Hypothesis	psubclin.c	$⊢ C = PSubCl (K)$
	Assertion	psubclinN	$⊢ (K \in HL \land X \in C \land Y \in C) \to X \cap Y \in C$

Proof

Step	Hyp	Ref	Expression
1		psubclin.c	$⊢ C = PSubCl (K)$
2		simp1	$⊢ (K \in HL \land X \in C \land Y \in C) \to K \in HL$
3		hlclat	$⊢ K \in HL \to K \in CLat$
4	3	3ad2ant1	$⊢ (K \in HL \land X \in C \land Y \in C) \to K \in CLat$
5		eqid	$⊢ Atoms (K) = Atoms (K)$
6	5 1	psubclssatN	$⊢ (K \in HL \land X \in C) \to X \subseteq Atoms (K)$
7	6	3adant3	$⊢ (K \in HL \land X \in C \land Y \in C) \to X \subseteq Atoms (K)$
8		eqid	$⊢ {Base}_{K} = {Base}_{K}$
9	8 5	atssbase	$⊢ Atoms (K) \subseteq {Base}_{K}$
10	7 9	sstrdi	$⊢ (K \in HL \land X \in C \land Y \in C) \to X \subseteq {Base}_{K}$
11		eqid	$⊢ lub (K) = lub (K)$
12	8 11	clatlubcl	$⊢ (K \in CLat \land X \subseteq {Base}_{K}) \to lub (K) (X) \in {Base}_{K}$
13	4 10 12	syl2anc	$⊢ (K \in HL \land X \in C \land Y \in C) \to lub (K) (X) \in {Base}_{K}$
14	5 1	psubclssatN	$⊢ (K \in HL \land Y \in C) \to Y \subseteq Atoms (K)$
15	14	3adant2	$⊢ (K \in HL \land X \in C \land Y \in C) \to Y \subseteq Atoms (K)$
16	15 9	sstrdi	$⊢ (K \in HL \land X \in C \land Y \in C) \to Y \subseteq {Base}_{K}$
17	8 11	clatlubcl	$⊢ (K \in CLat \land Y \subseteq {Base}_{K}) \to lub (K) (Y) \in {Base}_{K}$
18	4 16 17	syl2anc	$⊢ (K \in HL \land X \in C \land Y \in C) \to lub (K) (Y) \in {Base}_{K}$
19		eqid	$⊢ meet (K) = meet (K)$
20		eqid	$⊢ pmap (K) = pmap (K)$
21	8 19 5 20	pmapmeet	$⊢ (K \in HL \land lub (K) (X) \in {Base}_{K} \land lub (K) (Y) \in {Base}_{K}) \to pmap (K) (lub (K) (X) meet (K) lub (K) (Y)) = pmap (K) (lub (K) (X)) \cap pmap (K) (lub (K) (Y))$
22	2 13 18 21	syl3anc	$⊢ (K \in HL \land X \in C \land Y \in C) \to pmap (K) (lub (K) (X) meet (K) lub (K) (Y)) = pmap (K) (lub (K) (X)) \cap pmap (K) (lub (K) (Y))$
23	11 20 1	pmapidclN	$⊢ (K \in HL \land X \in C) \to pmap (K) (lub (K) (X)) = X$
24	23	3adant3	$⊢ (K \in HL \land X \in C \land Y \in C) \to pmap (K) (lub (K) (X)) = X$
25	11 20 1	pmapidclN	$⊢ (K \in HL \land Y \in C) \to pmap (K) (lub (K) (Y)) = Y$
26	25	3adant2	$⊢ (K \in HL \land X \in C \land Y \in C) \to pmap (K) (lub (K) (Y)) = Y$
27	24 26	ineq12d	$⊢ (K \in HL \land X \in C \land Y \in C) \to pmap (K) (lub (K) (X)) \cap pmap (K) (lub (K) (Y)) = X \cap Y$
28	22 27	eqtrd	$⊢ (K \in HL \land X \in C \land Y \in C) \to pmap (K) (lub (K) (X) meet (K) lub (K) (Y)) = X \cap Y$
29		hllat	$⊢ K \in HL \to K \in Lat$
30	29	3ad2ant1	$⊢ (K \in HL \land X \in C \land Y \in C) \to K \in Lat$
31	8 19	latmcl	$⊢ (K \in Lat \land lub (K) (X) \in {Base}_{K} \land lub (K) (Y) \in {Base}_{K}) \to lub (K) (X) meet (K) lub (K) (Y) \in {Base}_{K}$
32	30 13 18 31	syl3anc	$⊢ (K \in HL \land X \in C \land Y \in C) \to lub (K) (X) meet (K) lub (K) (Y) \in {Base}_{K}$
33	8 20 1	pmapsubclN	$⊢ (K \in HL \land lub (K) (X) meet (K) lub (K) (Y) \in {Base}_{K}) \to pmap (K) (lub (K) (X) meet (K) lub (K) (Y)) \in C$
34	2 32 33	syl2anc	$⊢ (K \in HL \land X \in C \land Y \in C) \to pmap (K) (lub (K) (X) meet (K) lub (K) (Y)) \in C$
35	28 34	eqeltrrd	$⊢ (K \in HL \land X \in C \land Y \in C) \to X \cap Y \in C$

Metamath Proof Explorer

Theorem psubclinN

Proof